KR101386533B1 - Hand-over system and method in mobile communication network - Google Patents

Abstract

According to the present invention, when a mobile terminal is located in a frequency boundary area in a call state and performs handover between frequencies, the mobile terminal measures the signal strength of a frequency that is still being serviced, and when the signal strength falls below a specific value. Notify the base station controller with a measurement report message, and the base station controller moves a radio link reconfiguration message and a physical channel reconfiguration message to perform inter-frequency handover to the mobile station, respectively. The present invention relates to a handover system and a method for transmitting to a terminal and a base station to perform an inter-frequency handover without a compression mode.

Handover, Mobile Terminal, Base Station Controller, Compression Mode, Frequency, Border Cell, Measurement Report, Physical Channel, Radio Link, Reconfiguration, Active Set

Description

Handover system and method in mobile communication network

The present invention relates to a handover system and method, and more particularly, when a mobile terminal is located in a frequency boundary area in a call state to perform an inter-frequency handover, a signal strength of a frequency that the mobile terminal continues to service is provided. When the signal is measured and the signal strength is lower than the specified value, the base station controller is informed by a measurement report message, and the base station controller performs a radio link reconfiguration message to perform an inter-frequency handover to the mobile terminal. The present invention relates to a handover system and a method for transmitting an inter-frequency handover without a compression mode by transmitting a physical channel reconfiguration message to a mobile station and a base station, respectively.

In a mobile communication system, a frequency boundary region is set due to an imbalance between traffic between regions or a system shape, and when a mobile terminal passes a frequency boundary region in a call state, an inter-frequency handover is required.

In order to solve such a problem, a base station in a frequency boundary region is designated as a border cell, and a handover between frequencies is supported.

In a handover method using a border cell, when a mobile station moves from a serving cell to a border cell in a call state, the handover method uses an active set of the current border cell of the mobile terminal. Request the base station controller (RNC) to add to the Active Set.

In response, the base station controller (RNC) transmits an Active Set Update command and receives an 'ActiveSetUpdateComplete' message from the mobile terminal. Notify to report when the strength of the serviced frequency is below the set value.

The mobile station periodically measures the frequency (FA) currently being serviced and reports the measurement result to the base station controller (RNC) when the measured value is less than the set value. When the base station controller (RNC) receives a report from the mobile terminal that the signal strength of the currently serviced frequency FA is lower than the set value, the base station controller (RNC) operates in the compression mode to the mobile terminal as shown in FIG. The signal strength of the other frequency FA is measured and commanded to report when it exceeds a certain value. 1 is a diagram illustrating a handover including a compression mode of a conventional mobile terminal.

Accordingly, the mobile terminal operates in the compression mode as shown in FIG. 1 to measure the signal strength of another frequency FA. In the compression mode operation, the mobile terminal measures the signal strength of the other frequency. In order to do this, a certain period of service interruption is required, and for this purpose, a technology that increases data transmission speed is used.

However, this requires a sudden increase in the output of the base station, which not only results in deterioration of the quality of the entire cell, but also results in deterioration of the call quality due to difficulty in implementation. In addition, the measurement time of the other frequency in a short time is short and the stability and accuracy of the measurement is lacking a lot, there is a problem that the success rate of handover is lower than the general hard handover without the compression mode (Compress Mode) .

In order to improve this problem, a method of applying a dummy cell method used in a conventional CDMA system (CDMA2000) has been studied, but this has a disadvantage in that all hardware equipment must be installed for a frequency (FA) which does not actually serve.

In addition, there is a problem that the stability and accuracy of the measurement is low due to the data loss problem according to the conventional compression mode operation, the short measuring period of the other frequency (FA).

An object of the present invention for solving the above problems is to measure the signal strength of the frequency that the mobile terminal continues to service when the mobile terminal is located in the frequency boundary area in the call state to perform the inter-frequency handover When the signal strength falls below a certain value, the base station controller informs the base station controller with a measurement report message. The base station controller sends a radio link reconfiguration message and a physical channel reconfiguration message to the mobile station and the base station, respectively, to perform inter-frequency handover to the mobile station. The present invention provides a handover system and method, a base station controller, a handover method thereof, a mobile terminal, and a handover method thereof capable of transmitting and performing handover between frequencies without a compression mode.

The handover system according to the present invention for achieving the above object, when the call is set up for the base station A, the mobile station moves toward the area of the base station B, the measurement is reported to the base station controller when performing the handover located in the boundary cell, Receives an active set update message from the base station controller and adds the base station B to the active set. When the frequency signal strength is lower than the specified value, the base station controller measures and reports to the base station controller and receives the physical channel reconfiguration message from the base station controller. A mobile terminal performing over; And when receiving a measurement report from the mobile terminal located in the boundary cell, transmitting an active set update message to the mobile terminal, and receiving an active set update completion message from the mobile terminal, the neighbor base station list and the handover related information. And a base station controller for transmitting a physical channel reconfiguration message to the mobile terminal and receiving a radio link reconfiguration message to the base station B when receiving a measurement report having a frequency signal strength less than or equal to a specific value from the mobile terminal.

On the other hand, a mobile terminal according to the present invention for achieving the above object, a communication unit for communicating with the base station and the base station controller; A signal strength measuring unit measuring a signal strength of a frequency communicating with the base station; Generate a first measurement report message to be transmitted to the base station controller when the cell is located in a boundary cell, generate an active set update complete message for an active set update message received from the base station controller, and the signal strength of the frequency is equal to or less than a specific value; A handover operation unit which generates a second measurement report message when the signal is transmitted and performs a handover without a compression mode when a physical channel reconfiguration message is received from the base station controller; And control the first measurement report message, the second measurement report message, and the active set update completion message to be transmitted to the base station controller when the cell is located in the boundary cell, based on the physical channel reconfiguration message. And a control unit for controlling the handover to be performed without the compression mode.

Here, when the call is set up for the base station A, the control unit moves to a boundary cell and is located in a boundary cell, and the first measurement report message including the handover event and information on the base station B to be handed over is received. Transmit to base station controller.

When the controller receives an active set update message from the base station controller, the controller adds a handover target base station B to the active set and transmits an active set update complete message to the base station controller.

On the other hand, the base station controller according to the present invention for achieving the above object, a communication unit for communicating with the mobile terminal; Upon receiving the first measurement report message from the mobile terminal entering the boundary cell, generate an active set update message to be transmitted to the mobile terminal, and when receiving the second measurement report message whose frequency signal strength is equal to or less than a specific value, transmit it to the mobile terminal. A handover processor configured to generate a physical channel reconfiguration message and a radio link reconfiguration message to be transmitted to a base station; And a control unit which transmits the active set update message and the physical channel reconfiguration message to the mobile terminal and transmits the radio link reconfiguration message to the base station to control the mobile terminal to perform a handover without a compression mode.

In this case, when the number of base stations in the active set of the mobile terminal is two or less, the controller controls physical channel reconfiguration to occur at different frequencies (FA) for all base stations in the active set.

In addition, when the number of base stations in the active set of the mobile terminal is three or more, the controller selects only two base stations among all the base stations of the active set and controls the physical channel reconfiguration to occur.

The controller selects only two base stations based on a frequency interference degree (Ec / Io) and a received signal strength (RSCP) value of each base station based on the second measurement report message received from the mobile terminal.

Meanwhile, a handover method according to the present invention for achieving the above object includes a mobile terminal moving to an area of base station B after a call is set up for base station A and a base station controller for controlling handover of the mobile terminal. A handover method of a system, comprising: (a) the mobile terminal entering a boundary cell between an area of the base station A and an area of the base station B and sending a first measurement report message to the base station controller; (b) the base station controller sending an active update message to the mobile terminal; (c) transmitting, by the mobile terminal, an active set update complete message to which the base station B is added to the active set to the base station controller; (d) the base station controller transmitting a measurement control message to the mobile terminal; (e) the mobile terminal transmitting a second measurement report message to the base station controller when the frequency signal strength is less than or equal to a specific value; And (f) the base station controller transmitting a radio link reconfiguration message to the base station B and a physical channel reconfiguration message to the mobile terminal.

Meanwhile, a handover method of a mobile terminal according to the present invention for achieving the above object is a handover method of a mobile terminal moving to an area of base station B after a call is set up for base station A, and (a) the base station A Sending a first measurement report message to the base station controller when entering a boundary cell between an area of and an area of base station B; (b) receiving an active set update message from the base station controller; (c) adding the base station B to an active set and sending an active set update complete message to the base station controller; (d) sending a second measurement report message to the base station controller when the frequency signal strength is below a specified value; And (e) receiving a physical channel reconfiguration message from the base station controller.

On the other hand, the handover method of the base station controller according to the present invention for achieving the above object, the handover method of the base station controller for controlling the handover of the mobile terminal moving to the area of the base station B after the call is set up for the base station A A method comprising: (a) receiving a first measurement report message from the mobile terminal entering a boundary cell between an area of the base station A and an area of the base station B; (b) sending an active set update message to the mobile terminal; (c) receiving an active set update completion message from the mobile terminal; (d) receiving a second measurement report message from the mobile terminal whose frequency signal strength is below a specified value; And (e) transmitting a physical channel reconfiguration message to the mobile terminal and transmitting a radio link reconfiguration message to the base station B.

Also, in the step (e), when the number of base stations in the active set of the mobile terminal is two or less based on the second measurement report message, the physical channel may be a different frequency (FA) for all base stations in the active set. A physical channel reconfiguration message is sent to the mobile terminal to allow reconfiguration to occur.

Further, in the step (e), when the number of base stations in the active set of the mobile terminal is three or more based on the second measurement report message, only two base stations of all the base stations of the active set are selected to reconfigure the physical channel. A physical channel reconfiguration message is sent to the mobile terminal to cause this to occur.

Based on the second measurement report message, only two base stations are selected by using the base station frequency interference (Ec / Io) and the received signal strength (RSCP) values.

Meanwhile, the handover method of the base station controller according to the present invention can be recorded as a program on a computer readable medium such as a CD or a USB memory.

According to the present invention, when the mobile terminal is located in the boundary cell and performs the inter-frequency handover, the compression mode operation is not required. Thus, the data loss problem due to the existing compression mode operation is short and the measurement period of the other frequency (FA) is short. This solves the problem of low stability and accuracy of measurement.

In addition, by using the measurement report message transmitted from the mobile station to the base station controller, it is possible to operate the frequency boundary station only by changing parameters without additional equipment, and it is possible to increase the acceptance of traffic in the boundary cell.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Reference will now be made in detail to the preferred embodiments of the present invention, examples of which are illustrated in the accompanying drawings, wherein like reference numerals refer to the like elements throughout. Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

2 is a configuration diagram schematically showing the configuration of a handover system according to an embodiment of the present invention.

2, the handover system 200 according to the present invention includes a mobile terminal 210, a base station 220, 222, and a base station controller 230.

Here, the base stations 220 and 222 are the base station A 220 where the mobile terminal 210 first set up a call, and the base station B which is the handover target when the mobile terminal 210 moves and proceeds with handover. 222.

The mobile station 210 moves to the area of the base station B 222 after the call is set up for the base station A 220 and is located in the border cell to perform handover. Perform a measurement report on the Subsequently, the mobile terminal 210 receives an Activeset Update message from the base station controller 230 and adds the base station B 222 to the active set. When the frequency signal strength is less than or equal to a specific value, the mobile terminal 210 receives a physical channel reconfiguration message from the base station controller 230 and reports a measurement report to the base station controller 230 to perform a handover without a compression mode. To perform.

When the base station controller 230 receives the measurement report from the mobile terminal 210 located in the boundary cell, the base station controller 230 transmits an active set update message to the mobile terminal. Subsequently, upon receiving the active set update completion message from the mobile terminal 210, the neighbor base station list and the handover related information are transmitted to the mobile terminal 210. When receiving a measurement report with a frequency signal strength equal to or less than a specific value from the mobile terminal 210, the physical channel reconfiguration message is transmitted to the mobile terminal 210, and a radio link reconfiguration message is transmitted to the base station B 222. send.

3 is a configuration diagram schematically showing main functional blocks of a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 3, the mobile terminal 210 according to the present invention includes a communication unit 310, a signal measuring unit 320, a handover operation unit 330, an input unit 340, a storage unit 350, The display unit 360 and the control unit 370 are included.

The communication unit 310 communicates with the base stations 220 and 222 and the base station controller 230.

The signal strength measuring unit 320 measures signal strength of a frequency communicating with the base stations 220 and 222.

The handover operation unit 330 generates a first measurement report message Event 1a (base station B) to be transmitted to the base station controller 230 when the mobile terminal 210 is located in the boundary cell, and receives it from the base station controller 230. Generates an Active Set Update Complete message for an Active Set Update message, and generates a second measurement report message (Event 2d) when the signal strength of a frequency falls below a specific value. When the physical channel reconfiguration message is received from the base station controller 230, the handover is performed without the compression mode.

The handover operation unit 330 includes a third layer (Layer 3) and a second layer (Layer 2) of the OSI 7 layer, and binds with the return routerability through the second layer (Layer 2) during handover. Set up update and binding checks. To this end, the handover operation unit 330 uses the HMAC function, the SHA function, and the HMAC_SHA function.

The input unit 340 receives data from a user.

The storage 350 stores data, for example, an active set update message, a measurement control message, a physical channel reconfiguration message, etc. received from the base station controller 230.

The display unit 360 displays data or displays an operation state of the terminal on the screen.

The controller 370 controls to transmit the first measurement report message, the second measurement report message, and the active set update completion message for handover to the base station controller 230 when the mobile terminal 210 is located in the boundary cell. Based on the physical channel reconfiguration message, control is performed to perform handover without a compression mode.

Herein, when the call is set up for the base station A 220, the controller 370 moves to be located in a border cell and becomes a handover condition. The handover event (Event 1a) and the handover target are performed. The first measurement report message including the information on the base station B 222 is controlled to be transmitted to the base station controller 230.

When the controller 370 receives the active set update message from the base station controller 230, the controller 370 adds the handover target base station B 222 to the active set and transmits the active set update complete message to the base station controller 230. To control.

4 is a configuration diagram schematically showing main functional blocks of a base station controller according to an embodiment of the present invention.

Referring to FIG. 4, the base station controller 230 according to the present invention includes a communication unit 410, a handover processing unit 420, and a control unit 430.

The communication unit 410 communicates with the mobile terminal 210.

When the handover processing unit 420 receives the first measurement report message from the mobile terminal 210 entering the boundary cell, the handover processing unit 420 generates an active set update message to be transmitted to the mobile terminal, and generates a second measurement report message having a frequency signal strength less than or equal to a specific value. Upon reception, a physical channel reconfiguration message to be transmitted to the mobile terminal 210 and a radio link reconfiguration message to be transmitted to the base station B 222 are generated.

The controller 430 controls the active set update message and the physical channel reconfiguration message to be transmitted to the mobile terminal 210, and transmits a radio link reconfiguration message to the base station B 222 so that the mobile terminal 210 performs handover without the compression mode. Control to perform.

In addition, when the number of base stations in the active set of the mobile terminal 210 is two or less, the controller 430 controls physical channel reconfiguration to occur at different frequencies (FA) for all base stations in the active set.

In addition, when the number of the base stations in the active set is three or more, the controller 430 selects only two base stations among all the base stations in the active set and controls the physical channel reconfiguration to occur. In this case, the controller 430 selects only two base stations based on the frequency interference level (Ec / Io) and the received signal strength (RSCP) value of each base station based on the second measurement report message received from the mobile terminal 210. .

5 is an overall flowchart illustrating a handover method according to an embodiment of the present invention.

Referring to FIG. 5, the mobile terminal 210 according to the present invention enters a boundary cell between an area of the base station A 220 and an area of the base station B 222 and reports a first measurement report (Event 1a, base station B). The message is transmitted to the base station controller 230 (S510).

Accordingly, the base station controller 230 transmits an active set update message to the mobile terminal 210 to add the base station B to the active set (S520).

The mobile terminal 210 adds the base station B to the active set (S530).

Subsequently, the mobile terminal 210 transmits an active set update completion message in which the base station B is added to the active set to the base station controller 230 (S540).

The base station controller 230 transmits a measurement control message including a neighbor base station list and handover related information to the mobile terminal (S550).

The mobile terminal 210 transmits a second measurement report (Event 2d) message to the base station controller 230 when the frequency signal strength is less than or equal to a specific value (S560).

The base station controller 230 transmits a radio link reconfiguration message to the base station B 222 and a physical channel reconfiguration message to the mobile terminal 210 (S570).

The mobile terminal 210 reconfigures the physical channel based on the physical channel reconfiguration message (S580), and transmits a physical channel reconfiguration completion message to the base station controller 230 (S590).

6 is a flowchart illustrating a handover method of a mobile terminal according to an embodiment of the present invention.

Referring to FIG. 6, when the mobile terminal 210 enters a boundary cell between an area of the base station A 220 and an area of the base station B 222, the mobile station 210 transmits a first measurement report message to the base station controller 230. It transmits (S610).

Subsequently, the mobile terminal 210 receives an active set update message for adding the base station B to the active set from the base station controller 230 (S620).

Subsequently, the mobile terminal 210 adds the base station B to the active set and transmits an active set update completion message to the base station controller (S630).

Subsequently, the mobile terminal 210 receives a measurement control message from the base station controller 230 (S640).

Then, the mobile terminal 210 transmits the second measurement report message to the base station controller 230 when the frequency signal strength is equal to or less than a specific value (S650-Yes) (S660).

Subsequently, upon receiving the physical channel reconfiguration message from the base station controller 230 (S670), the mobile terminal 210 reconfigures the physical channel based on the received physical channel reconfiguration message and then, as shown in FIG. The handover is performed immediately without performing the operation (S680). 8 is a diagram illustrating a handover proceeding without a compression mode according to an embodiment of the present invention. Therefore, the problem of data loss by executing the conventional compression mode, a problem of short measuring period of another frequency (FA), and the problem of low stability and accuracy of the measurement can be solved.

7 is a flowchart illustrating a handover method of a base station controller according to an embodiment of the present invention.

Referring to FIG. 7, the base station controller 230 according to the present invention sends a first measurement report message from the mobile terminal 210 that enters a boundary cell between the area of the base station A 220 and the area of the base station B 222. Receive (S710).

Accordingly, the base station controller 230 transmits an active set update message to the mobile terminal 210 (S720).

Thereafter, the base station controller 230 receives the active set update completion message from the mobile terminal 210 (S730).

Subsequently, the base station controller 230 transmits a measurement control message to the mobile terminal 210 (S740).

Here, the measurement control message includes a neighbor base station list and handover related information. That is, the measurement control signal includes a measurement period starting point (MPSP), a measurement period (MP), a measurement period interval (MPI), a measurement period sequence (Measurement Period Sequence) MPS), measurement interval sequence repetition number (MPS Repetition Number, MPSRN) and reporting scale (Reporting Criteria) are included.

The MPSP indicates the start time of the inter-frequency measurement, and the MP is an interval for changing up / down transmission channels between the mobile terminal 210 and the base station for inter-frequency measurement. There may be up to n MPs. MPI represents the spacing between adjacent MPs, and MPS represents a sequence for inter-frequency measurements consisting of n MPs and k MPIs. MPSRN is a value representing the number of repetitions of MPS for inter-frequency measurements, expressed as a positive number from 1 to M.

The base station controller 230 receives the second measurement report message from the mobile terminal 210 whose frequency signal strength is equal to or less than a specific value (S750).

The base station controller 230 transmits a physical channel reconfiguration message to the mobile terminal 210 and transmits a radio link reconfiguration message to the base station B 222 (S760).

At this time, the base station controller 230, if the number of base stations in the active set is two or less based on the second measurement report message, the physical channel to cause physical channel reconstruction occurs at a different frequency (FA) for all base stations in the active set The reconfiguration message is transmitted to the mobile terminal 210.

In addition, when the number of base stations in the active set of the mobile terminal 210 is three or more, based on the second measurement report message, the base station controller 230 selects only two base stations among all the base stations in the active set to perform physical channel reconfiguration. The physical channel reconfiguration message is sent to the mobile terminal 210 to occur. At this time, the base station controller 230 selects only two base stations using the base station frequency interference degree (Ec / Io) and the received signal strength (RSCP) values based on the second measurement report message.

As described above, according to the present invention, when a mobile terminal is located in a frequency boundary area in a call state and performs an inter-frequency handover, the mobile terminal measures the signal strength of a frequency that is still in service, and then the signal strength. Is less than or equal to the specified value, the base station controller is notified of the measurement report message, and the base station controller transmits a radio link reconfiguration message and a physical channel reconfiguration message to the mobile station and the base station, respectively, to perform inter-frequency handover. It is possible to realize a handover system and method, a base station controller and its handover method, a mobile terminal and a handover method thereof, which are capable of performing inter-frequency handover without any.

It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention as defined by the following claims and their equivalents. Only. The scope of the present invention is defined by the appended claims rather than the detailed description and all changes or modifications derived from the meaning and scope of the claims and their equivalents are to be construed as being included within the scope of the present invention do.

The present invention can be applied to a mobile communication system that needs to perform a handover when a mobile terminal having a call set up in the base station A moves to an area of the base station B and is located in a boundary cell.

In addition, the present invention can be applied to perform a handover without a compressed mode operation to a mobile terminal that performs a compressed mode operation when performing a handover located in a boundary cell.

In addition, the present invention can be applied to a mobile communication system or a service having a problem of data loss, a short measurement period of another frequency, and a low stability and accuracy of frequency measurement during handover.

1 is a diagram illustrating a handover including a compression mode of a conventional mobile terminal.

2 is a configuration diagram schematically showing the configuration of a handover system according to an embodiment of the present invention.

3 is a configuration diagram schematically showing main functional blocks of a mobile terminal according to an embodiment of the present invention.

4 is a configuration diagram schematically showing main functional blocks of a base station controller according to an embodiment of the present invention.

5 is an overall flowchart illustrating a handover method according to an embodiment of the present invention.

6 is a flowchart illustrating a handover method of a mobile terminal according to an embodiment of the present invention.

7 is a flowchart illustrating a handover method of a base station controller according to an embodiment of the present invention.

8 illustrates a handover proceeding without a compression mode according to an embodiment of the present invention.

Description of the Related Art

200: handover system 210: mobile terminal

220, 222: base station 230: base station controller

310: communication unit 320: signal strength measurement unit

330: handover operation unit 340: input unit

350: storage unit 360: display unit

370: control unit 410: communication unit

420: handover processing unit 430: control unit

Claims (13)

When a call is set up for the base station A and moves toward the area of the base station B and is located in a border cell to perform a handover, a measurement report is reported to the base station controller, and an active set is received from the base station controller. Add base station B to the active set by receiving an Update (Active Update Update) message, and if the frequency signal strength is less than a certain value, the measurement report to the base station controller receives a physical channel reconfiguration message from the base station controller A mobile terminal performing a handover without a compressed mode; And Upon receiving a measurement report from the mobile terminal located in the boundary cell, an active set update message is transmitted to the mobile terminal, and upon receiving an active set update complete message from the mobile terminal, a neighbor base station list and handover related information are transmitted to the mobile terminal. A base station controller for transmitting a physical channel reconfiguration message to the mobile terminal and receiving a radio link reconfiguration message to the base station B when receiving a measurement report having a frequency signal strength less than or equal to a specific value from the mobile terminal; Wherein the base station controller controls the physical channel reconfiguration to occur based on the number of base stations present in the active set of the mobile terminal. A communication unit for communicating with a mobile terminal; When the first measurement report message is received from the mobile terminal entering the boundary cell, an active set update message is generated to be transmitted to the mobile terminal, and when a second measurement report message having a frequency signal strength or less is received, the physical signal to be transmitted to the mobile terminal is received. A handover processor configured to generate a channel reconfiguration message and a radio link reconfiguration message to be transmitted to the base station; And A control unit which transmits the active set update message and the physical channel reconfiguration message to the mobile terminal and transmits the radio link reconfiguration message to the base station to control the mobile terminal to perform a handover without a compression mode; The base station controller of claim 1, wherein the controller controls the physical channel reconfiguration to occur based on the number of base stations present in the active set of the mobile terminal. The method of claim 2, And when the number of base stations in the active set of the mobile terminal is two or less, the controller controls physical channel reconfiguration to occur at different frequencies for all base stations in the active set. The method of claim 3, And when the number of base stations in the active set of the mobile terminal is three or more, the control unit selects only two base stations among all the base stations in the active set and controls the physical channel reconfiguration to occur. 5. The method of claim 4, The controller selects only two base stations based on a frequency interference level (Ec / Io) and a received signal strength (RSCP) value of each base station based on the second measurement report message received from the mobile terminal. Controller. A handover method of a system comprising a mobile terminal moving to an area of base station B after a call is set up for base station A and a base station controller for controlling handover of the mobile terminal, (a) the mobile terminal entering a boundary cell between the area of the base station A and the area of the base station B and transmitting a first measurement report message to the base station controller; (b) the base station controller sending an active update message to the mobile terminal; (c) transmitting, by the mobile terminal, an active set update complete message to which the base station B is added to the active set to the base station controller; (d) the base station controller transmitting a measurement control message to the mobile terminal; (e) the mobile terminal transmitting a second measurement report message to the base station controller when the frequency signal strength is less than or equal to a specific value; And (f) the base station controller transmitting a radio link reconfiguration message to the base station B and a physical channel reconfiguration message to the mobile terminal; Wherein the step (f) is such that the physical channel reconfiguration is performed based on the number of base stations in the active set of the mobile terminal. delete A handover method of a base station controller for controlling handover of a mobile terminal moving to an area of base station B after a call is set up for the base station A, (a) receiving a first measurement report message from the mobile terminal entering a boundary cell between the area of the base station A and the area of the base station B; (b) sending an active set update message to the mobile terminal; (c) receiving an active set update completion message from the mobile terminal; (d) transmitting a measurement control message to the mobile terminal; (e) receiving a second measurement report message from the mobile terminal whose frequency signal strength is below a specified value; And (f) transmitting a physical channel reconfiguration message to the mobile terminal and transmitting a radio link reconfiguration message to the base station B; Wherein the step (f) controls the physical channel reconfiguration to occur based on the number of base stations present in the active set of the mobile terminal. 9. The method of claim 8, And the measurement control message includes a neighbor base station list and handover related information. 9. The method of claim 8, In step (f), if the number of base stations in the active set of the mobile terminal is two or less based on the second measurement report message, physical channel reconfiguration may be performed for all base stations of the active set at different frequencies. And transmitting a physical channel reconfiguration message to the mobile terminal. 9. The method of claim 8, In step (f), when the number of base stations in the active set of the mobile terminal is three or more based on the second measurement report message, physical channel reconfiguration occurs by selecting only two base stations among all the base stations in the active set. And transmitting a physical channel reconfiguration message to the mobile terminal. The method of claim 11, And based on the second measurement report message, only two base stations are selected by using the base station frequency interference (Ec / Io) and the received signal strength (RSCP) values. delete

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